use std::str::pattern::*;

// This macro makes it easier to write
// tests that do a series of iterations
macro_rules! search_asserts {
    ($haystack:expr, $needle:expr, $testname:expr, [$($func:ident),*], $result:expr) => {
        let mut searcher = $needle.into_searcher($haystack);
        let arr = [$( Step::from(searcher.$func()) ),*];
        assert_eq!(&arr[..], &$result, $testname);
    }
}

/// Combined enum for the results of next() and next_match()/next_reject()
#[derive(Debug, PartialEq, Eq)]
enum Step {
    // variant names purposely chosen to
    // be the same length for easy alignment
    Matches(usize, usize),
    Rejects(usize, usize),
    InRange(usize, usize),
    Done
}

use self::Step::*;

impl From<SearchStep> for Step {
    fn from(x: SearchStep) -> Self {
        match x {
            SearchStep::Match(a, b) => Matches(a, b),
            SearchStep::Reject(a, b) => Rejects(a, b),
            SearchStep::Done => Done
        }
    }
}

impl From<Option<(usize, usize)>> for Step {
    fn from(x: Option<(usize, usize)>) -> Self {
        match x {
            Some((a, b)) => InRange(a, b),
            None => Done
        }
    }
}

// ignore-tidy-linelength

// FIXME(Manishearth) these tests focus on single-character searching  (CharSearcher)
// and on next()/next_match(), not next_reject(). This is because
// the memchr changes make next_match() for single chars complex, but next_reject()
// continues to use next() under the hood. We should add more test cases for all
// of these, as well as tests for StrSearcher and higher level tests for str::find() (etc)

#[test]
fn test_simple_iteration() {
    search_asserts! ("abcdeabcd", 'a', "forward iteration for ASCII string",
        // a            b              c              d              e              a              b              c              d              EOF
        [next,          next,          next,          next,          next,          next,          next,          next,          next,          next],
        [Matches(0, 1), Rejects(1, 2), Rejects(2, 3), Rejects(3, 4), Rejects(4, 5), Matches(5, 6), Rejects(6, 7), Rejects(7, 8), Rejects(8, 9), Done]
    );

    search_asserts! ("abcdeabcd", 'a', "reverse iteration for ASCII string",
        // d            c              b              a            e                d              c              b              a             EOF
        [next_back,     next_back,     next_back,     next_back,     next_back,     next_back,     next_back,     next_back,     next_back,     next_back],
        [Rejects(8, 9), Rejects(7, 8), Rejects(6, 7), Matches(5, 6), Rejects(4, 5), Rejects(3, 4), Rejects(2, 3), Rejects(1, 2), Matches(0, 1), Done]
    );

    search_asserts! ("我爱我的猫", '我', "forward iteration for Chinese string",
        // 我           愛             我             的              貓               EOF
        [next,          next,          next,          next,           next,            next],
        [Matches(0, 3), Rejects(3, 6), Matches(6, 9), Rejects(9, 12), Rejects(12, 15), Done]
    );

    search_asserts! ("我的猫说meow", 'm', "forward iteration for mixed string",
        // 我           的             猫             说              m                e                o                w                EOF
        [next,          next,          next,          next,           next,            next,            next,            next,            next],
        [Rejects(0, 3), Rejects(3, 6), Rejects(6, 9), Rejects(9, 12), Matches(12, 13), Rejects(13, 14), Rejects(14, 15), Rejects(15, 16), Done]
    );

    search_asserts! ("我的猫说meow", '猫', "reverse iteration for mixed string",
        // w             o                 e                m                说              猫             的             我             EOF
        [next_back,       next_back,       next_back,       next_back,       next_back,      next_back,      next_back,    next_back,     next_back],
        [Rejects(15, 16), Rejects(14, 15), Rejects(13, 14), Rejects(12, 13), Rejects(9, 12), Matches(6, 9), Rejects(3, 6), Rejects(0, 3), Done]
    );
}

#[test]
fn test_simple_search() {
    search_asserts!("abcdeabcdeabcde", 'a', "next_match for ASCII string",
        [next_match,    next_match,    next_match,      next_match],
        [InRange(0, 1), InRange(5, 6), InRange(10, 11), Done]
    );

    search_asserts!("abcdeabcdeabcde", 'a', "next_match_back for ASCII string",
        [next_match_back, next_match_back, next_match_back, next_match_back],
        [InRange(10, 11), InRange(5, 6),   InRange(0, 1),   Done]
    );

    search_asserts!("abcdeab", 'a', "next_reject for ASCII string",
        [next_reject,   next_reject,   next_match,    next_reject,   next_reject],
        [InRange(1, 2), InRange(2, 3), InRange(5, 6), InRange(6, 7), Done]
    );

    search_asserts!("abcdeabcdeabcde", 'a', "next_reject_back for ASCII string",
        [next_reject_back, next_reject_back, next_match_back, next_reject_back, next_reject_back, next_reject_back],
        [InRange(14, 15),  InRange(13, 14),  InRange(10, 11), InRange(9, 10),   InRange(8, 9),    InRange(7, 8)]
    );
}

// Á, 각, ก, 😀 all end in 0x81
// 🁀, ᘀ do not end in 0x81 but contain the byte
// ꁁ has 0x81 as its second and third bytes.
//
// The memchr-using implementation of next_match
// and next_match_back temporarily violate
// the property that the search is always on a unicode boundary,
// which is fine as long as this never reaches next() or next_back().
// So we test if next() is correct after each next_match() as well.
const STRESS: &str = "Áa🁀bÁꁁfg😁각กᘀ각aÁ각ꁁก😁a";

#[test]
fn test_stress_indices() {
    // this isn't really a test, more of documentation on the indices of each character in the stresstest string

    search_asserts!(STRESS, 'x', "Indices of characters in stress test",
        [next, next, next, next, next, next, next, next, next, next, next, next, next, next, next, next, next, next, next, next, next],
        [Rejects(0, 2), // Á
         Rejects(2, 3), // a
         Rejects(3, 7), // 🁀
         Rejects(7, 8), // b
         Rejects(8, 10), // Á
         Rejects(10, 13), // ꁁ
         Rejects(13, 14), // f
         Rejects(14, 15), // g
         Rejects(15, 19), // 😀
         Rejects(19, 22), // 각
         Rejects(22, 25), // ก
         Rejects(25, 28), // ᘀ
         Rejects(28, 31), // 각
         Rejects(31, 32), // a
         Rejects(32, 34), // Á
         Rejects(34, 37), // 각
         Rejects(37, 40), // ꁁ
         Rejects(40, 43), // ก
         Rejects(43, 47), // 😀
         Rejects(47, 48), // a
         Done]
    );
}

#[test]
fn test_forward_search_shared_bytes() {
    search_asserts!(STRESS, 'Á', "Forward search for two-byte Latin character",
        [next_match,    next_match,     next_match,      next_match],
        [InRange(0, 2), InRange(8, 10), InRange(32, 34), Done]
    );

    search_asserts!(STRESS, 'Á', "Forward search for two-byte Latin character; check if next() still works",
        [next_match,    next,          next_match,     next,             next_match,     next,            next_match],
        [InRange(0, 2), Rejects(2, 3), InRange(8, 10), Rejects(10, 13), InRange(32, 34), Rejects(34, 37), Done]
    );

    search_asserts!(STRESS, '각', "Forward search for three-byte Hangul character",
        [next_match,      next,            next_match,      next_match,      next_match],
        [InRange(19, 22), Rejects(22, 25), InRange(28, 31), InRange(34, 37), Done]
    );

    search_asserts!(STRESS, '각', "Forward search for three-byte Hangul character; check if next() still works",
        [next_match,      next,            next_match,      next,            next_match,      next,            next_match],
        [InRange(19, 22), Rejects(22, 25), InRange(28, 31), Rejects(31, 32), InRange(34, 37), Rejects(37, 40), Done]
    );

    search_asserts!(STRESS, 'ก', "Forward search for three-byte Thai character",
        [next_match,      next,            next_match,      next,            next_match],
        [InRange(22, 25), Rejects(25, 28), InRange(40, 43), Rejects(43, 47), Done]
    );

    search_asserts!(STRESS, 'ก', "Forward search for three-byte Thai character; check if next() still works",
        [next_match,      next,            next_match,      next,            next_match],
        [InRange(22, 25), Rejects(25, 28), InRange(40, 43), Rejects(43, 47), Done]
    );

    search_asserts!(STRESS, '😁', "Forward search for four-byte emoji",
        [next_match,      next,            next_match,      next,            next_match],
        [InRange(15, 19), Rejects(19, 22), InRange(43, 47), Rejects(47, 48), Done]
    );

    search_asserts!(STRESS, '😁', "Forward search for four-byte emoji; check if next() still works",
        [next_match,      next,            next_match,      next,            next_match],
        [InRange(15, 19), Rejects(19, 22), InRange(43, 47), Rejects(47, 48), Done]
    );

    search_asserts!(STRESS, 'ꁁ', "Forward search for three-byte Yi character with repeated bytes",
        [next_match,      next,            next_match,      next,            next_match],
        [InRange(10, 13), Rejects(13, 14), InRange(37, 40), Rejects(40, 43), Done]
    );

    search_asserts!(STRESS, 'ꁁ', "Forward search for three-byte Yi character with repeated bytes; check if next() still works",
        [next_match,      next,            next_match,      next,            next_match],
        [InRange(10, 13), Rejects(13, 14), InRange(37, 40), Rejects(40, 43), Done]
    );
}

#[test]
fn test_reverse_search_shared_bytes() {
    search_asserts!(STRESS, 'Á', "Reverse search for two-byte Latin character",
        [next_match_back, next_match_back, next_match_back, next_match_back],
        [InRange(32, 34), InRange(8, 10),  InRange(0, 2),   Done]
    );

    search_asserts!(STRESS, 'Á', "Reverse search for two-byte Latin character; check if next_back() still works",
        [next_match_back, next_back,       next_match_back, next_back,     next_match_back, next_back],
        [InRange(32, 34), Rejects(31, 32), InRange(8, 10),  Rejects(7, 8), InRange(0, 2),   Done]
    );

    search_asserts!(STRESS, '각', "Reverse search for three-byte Hangul character",
        [next_match_back, next_back,        next_match_back, next_match_back, next_match_back],
        [InRange(34, 37), Rejects(32, 34), InRange(28, 31),  InRange(19, 22), Done]
    );

    search_asserts!(STRESS, '각', "Reverse search for three-byte Hangul character; check if next_back() still works",
        [next_match_back, next_back,       next_match_back, next_back,       next_match_back, next_back,       next_match_back],
        [InRange(34, 37), Rejects(32, 34), InRange(28, 31), Rejects(25, 28), InRange(19, 22), Rejects(15, 19), Done]
    );

    search_asserts!(STRESS, 'ก', "Reverse search for three-byte Thai character",
        [next_match_back, next_back,       next_match_back, next_back,       next_match_back],
        [InRange(40, 43), Rejects(37, 40), InRange(22, 25), Rejects(19, 22), Done]
    );

    search_asserts!(STRESS, 'ก', "Reverse search for three-byte Thai character; check if next_back() still works",
        [next_match_back, next_back,       next_match_back, next_back,       next_match_back],
        [InRange(40, 43), Rejects(37, 40), InRange(22, 25), Rejects(19, 22), Done]
    );

    search_asserts!(STRESS, '😁', "Reverse search for four-byte emoji",
        [next_match_back, next_back,       next_match_back, next_back,       next_match_back],
        [InRange(43, 47), Rejects(40, 43), InRange(15, 19), Rejects(14, 15), Done]
    );

    search_asserts!(STRESS, '😁', "Reverse search for four-byte emoji; check if next_back() still works",
        [next_match_back, next_back,       next_match_back, next_back,       next_match_back],
        [InRange(43, 47), Rejects(40, 43), InRange(15, 19), Rejects(14, 15), Done]
    );

    search_asserts!(STRESS, 'ꁁ', "Reverse search for three-byte Yi character with repeated bytes",
        [next_match_back, next_back,       next_match_back, next_back,      next_match_back],
        [InRange(37, 40), Rejects(34, 37), InRange(10, 13), Rejects(8, 10), Done]
    );

    search_asserts!(STRESS, 'ꁁ', "Reverse search for three-byte Yi character with repeated bytes; check if next_back() still works",
        [next_match_back, next_back,       next_match_back, next_back,      next_match_back],
        [InRange(37, 40), Rejects(34, 37), InRange(10, 13), Rejects(8, 10), Done]
    );
}

#[test]
fn double_ended_regression_test() {
    // https://github.com/rust-lang/rust/issues/47175
    // Ensures that double ended searching comes to a convergence
    search_asserts!("abcdeabcdeabcde", 'a', "alternating double ended search",
        [next_match,    next_match_back,    next_match,      next_match_back],
        [InRange(0, 1), InRange(10, 11), InRange(5, 6), Done]
    );
    search_asserts!("abcdeabcdeabcde", 'a', "triple double ended search for a",
        [next_match,    next_match_back,    next_match_back,      next_match_back],
        [InRange(0, 1), InRange(10, 11), InRange(5, 6), Done]
    );
    search_asserts!("abcdeabcdeabcde", 'd', "triple double ended search for d",
        [next_match,    next_match_back,    next_match_back,      next_match_back],
        [InRange(3, 4), InRange(13, 14), InRange(8, 9), Done]
    );
    search_asserts!(STRESS, 'Á', "Double ended search for two-byte Latin character",
        [next_match,    next_match_back,     next_match,      next_match_back],
        [InRange(0, 2), InRange(32, 34), InRange(8, 10), Done]
    );
    search_asserts!(STRESS, '각', "Reverse double ended search for three-byte Hangul character",
        [next_match_back, next_back,       next_match,      next,            next_match_back, next_match],
        [InRange(34, 37), Rejects(32, 34), InRange(19, 22), Rejects(22, 25), InRange(28, 31), Done]
    );
    search_asserts!(STRESS, 'ก', "Double ended search for three-byte Thai character",
        [next_match,      next_back,       next,            next_match_back, next_match],
        [InRange(22, 25), Rejects(47, 48), Rejects(25, 28), InRange(40, 43), Done]
    );
    search_asserts!(STRESS, '😁', "Double ended search for four-byte emoji",
        [next_match_back, next,          next_match,      next_back,       next_match],
        [InRange(43, 47), Rejects(0, 2), InRange(15, 19), Rejects(40, 43), Done]
    );
    search_asserts!(STRESS, 'ꁁ', "Double ended search for three-byte Yi character with repeated bytes",
        [next_match,      next,            next_match_back, next_back,       next_match],
        [InRange(10, 13), Rejects(13, 14), InRange(37, 40), Rejects(34, 37), Done]
    );
}
